People and Illness Week 2 Flashcards
What is PD-1/PDL-1?
- Off-signal of immune system
- Up-regulated in tumour infiltrating CD8 T cells to evade immune response
Describe transport of tumour cells in the bloodstream
- Most tumour cells do not survive
- Shear stress of blood flow
- Immune detection
- Anoikis - apoptosis, in cells which must be attached to the ECM, when they are unattached apoptosis is triggered
Describe the changes which occur in the thymus throughout life
- Active in children, at the start of puberty throughout life into old age it atrophies, producing fewer T cells - connective tissue fibres and fat cells replace the previously functional tissue (parenchyma) of the organ = involution
- Reaches greatest size in first two years after birth
- Decrease in size means elderly people are more susceptible to disease and infection
List the types of cell therapies used in cancer treatment
- Haematopoietic stem cells
- Tumour-infiltrating T cells
- Dendritic cell vaccines
- NK cells
- Gamma-delta T cells
- Virus specific T cells
- Genetically engineered T cells
What is produced by the thymus?
- Immunocompetent T cells
- Clones of mature T cells
- Hormones needed for T cell development - thymosin, thymulin, thymopoietin
Describe the gross structure of the spleen
- Between the stomach, left kidney and diaphragm - lies on the greater curvature of the stomach at the tail of the pancreas
- Attached to the greater curvature by the gastrosplenic ligament, a broad band of mesentery
- Largest mass of lymphoid tissue in the body
- Splenic blood vessels and lymphatic vessels enter and leave at the hilum - only efferent lymphatic vessels
- Supplied by splenic artery, drained by splenic vein which joins the hepatic portal system
- Covered by fibrous capsule which extends into the parenchyma as trabeculae
- Majority is red pulp, interspersed with small white pulp nodules
How does the thymus maintain self-tolerance of T cells?
Medulla has antigen-presenting cells, present antigens to the matured T cells, any T cells that recognise the self-antigens are removed, preventing the development of an autoimmune disease
What are the common outcomes of a potential depression diagnosis?
- Recurrent depression disorder (60%)
- Substance misuse (40%)
- Anxiety (40%)
- Suicide (attempted 9%), 8x mortality
- Cardiovascular disease
List the side effects associated with tricyclic antidepressants
Anti-adrenergic (lowers BP), anticholinergic, ECG changes (arrhythmia, QTc prolongation)
List the classes of anti-depressants
- Selective serotonin re-uptake inhibitors and similar
- Tricyclics
- Monoamine oxidase inhibitors
Describe the barriers to targeted therapies
- Difficult to replace defective/missing components of pathway (e.g. tumour suppressor genes) - easier to suppress abnormal overactive pathways - few drugs which restore aberrant tumour suppressor genes
- Most patients genes are not driven by a single, druggable oncogene
- Drug resistance
- Kinase mutations emerge which are no longer sensitive to imatinib
- Cancers eventually begin growing again despite on-going treatment
Describe the mechanism of action of monoamine oxidase inhibitors
Block MAO-A and B - breaks down serotonin, noradrenaline, dopamine in the CNS
Describe immunoediting of cancer cells
- Cancer identified as abnormal by immune system, leading to cell death, therefore mutated trait not passed on
- Cells with gene mutations which elude immune system not recognised as foreign, can evolve in more insidious directions
- Ability to signal slowing of immune response or stopping immune cell reactions is important characteristic for cancer development, growth, metastases and eventual mortality
Define metastases
Multi-step process by which tumour cells move from a primary site to colonise a secondary site, discontinous with primary tumour
Local invasion = continuous with primary tumour
Highly challenging, only 0.02% of disseminated tumour cells able to successfully metastasize
List the biological clinical features of depression
- Diurnal variation - worse in morning, better as day progresses
- Insomnia
- Low appetite
- Reduced weight
- Reduced libido
- Constipation
- Amenorrhoea
Which types of tumours commonly spread haematogenically?
- Common mode of spread of sarcomas
- Also some carcinomas e.g. kidney, colorectum, prostate
Give examples of new cancer therapies
- Cytotoxic T lymphocytes
- Virus-specific T cells - PTLD, EBV driven B cell lymphoma in transplant patients, first line CHOP or RTX (few treatment options on relapse)
- EBV specific T cell therapy
Describe the types of donors used for haematopoietic stem cell transplant
- 60% autologous
- Own stem cells
- Lymphomas, tumours, autoimmune diseases, regenerative medicine, cardiovascular diseases
- 21% allogenic from a related donor
- Leukaemia, haematopoietic disorders, genetic diseases
- 19% allogenic from an unrelated donor
- Leukaemia, haematopoietic disorders, genetic diseases
List the functions of the thymus
- Production of immunocompetent T cells
- Production of mature but naive T cells for peripheral tissues and circulation
- Immunological self-tolerance
- Regulation of T cell maturation, proliferation and secretion via secretion of hormones
List the types of monoamine oxidase inhibitor antidepressants
- Irreversible
- Isocarboxid
- Phenelzine
- Tranylycpromine
- Reversible
- Moclobermide
Give examples of precision medicine in targeted therapies for cancer
- ALK inhibitors in lung cancer - anaplastic lymphoma kinase present in 2-7% of non-small cell lung cancer, therapy is crizotinib, causes 90% tumour shrinkage
- Epidermal growth factor receptor mutations in non-small cell lung cancer - therapy is erlotinib
How can the immune system contribute to tumour cell growth?
- Immunoediting produces resistant tumour cells
- Promote tumour cel growth, invasion and metastasis through the elaboration of inflammatory mediation and cytokines
Describe the control of angiogenesis in tumour growth
- Cancer more than 2mm away from capillary - cells in centre are hypoxic
- Hypoxia detected and factors e.g. VEGF, FGF, PDGF released into surrounding tissues
- Diffuse out and form gradient towards starving cell, when reaches capillary it traces back to starving cell and capillary grows to provide blood supply
- Production of factors e.g. VEGF controlled by hypoxia inducible factors - bind to DNA, transcriptional factors
- VEGF binds to tyrosine kinase to trigger signal cascade for new blood supply
- In cancer the off-switch for hypoxic signal off - hypoxia signal permanently on
Explain the structure of adherens junctions
- E-cadherin is important in maintaining adherens junctions
- Homotypic - E-cadherin on one cell binds to E-cadherin on opposite cell
- Calcium dependent - loss/disruption of calcium causes disruption of cell binding
- Alpha and beta catenin bind E-cadherin to actin cytoskeleton
How can angiogenesis be targeted in cancer therapy?
- Angiogenesis inhibitors - target tyrosine kinase to turn off hypoxia signal
- E.g. Sunitunib (Sutent), Pazopanib (Votrient), Axitinib (Inlyta)
Describe lymphatic spread of tumours
- Common mode of spread of carcinomas, e.g. breast, colon and lung
- Travel to draining lymph nodes, e.g. breast cancer to axillary lymph nodes
- Thereby to thoracic duct and systemic blood circulation
Describe the differential diagnoses of depression
- Dysthymia
- Low mood, chronic >2 years but not enough depression
- Cyclothymia - alternating low mood and high mood, both mild
- Atypical depression
- Low mood, reversed associated symptoms
- Seasonal affective disorder (SAD) - winter
- Adjustment reaction
- Adaptation to stressor
- Can include low mood
- Onset <1 month from stress
- Duration >6 months maximum
- Grief
- Bereavement - any loss event, usually death
- Grief - feelings, thoughts, behaviour associated with bereavement
- Abnormal grief - intense, prolonged (>6 months), delayed (>2 weeks), absent (inhibited)
- Kubler-Ross model - denial, anger, bargaining, depression, acceptance
In which cancers can BRAF be present?
- Approximately 40-60% of melanomas
- Non-Hodgkin lymphoma
- Colorectal cancer
- Malignant melanoma
- Papillary thyroid carcinoma
- Non-small cell lung carcinoma
- Adenocarcinoma of lung
- Brain tumours
Describe the methods of neovascularisation
- Vasculogenesis - formation of new BV from progenitors, in embryogenesis
- Angiogenesis - formation of new BV from existing vasculature, in embryogenesis, adult wound healing, reproductive cycle, cancer
What are CAR-T cells and how are they used as a cancer therapy?
- Chimeric antigen receptor T cells
- Genetic modification of patients T cell (autologous)
- No graft vs host disease, but risk of off-tumour toxicity and cytokine release syndrome
- Kymriah now licensed in US/UK for treating B cell lymphoma
- Issues - cost/complexity/kill-switch/single target
How is the severity of depression categorised?
- Mild - >2 core symptoms and >2 associations, function ok
- Moderate - >2 core symptoms and >4 associations, function reduced
- Severe - >2 core symptoms and >6 associations, function severely reduced +/- psychosis
How is depression treated?
Treat the biological, social and psychological aspects of the disease
What is the role of pericytes in the tumour microenvironment?
Faciliate intravasation and extravasation
How does immune surveillance effect tumour growth?
- Immune system constantly monitors body for tumour cells, majority destroyed by immune system before they can give rise to clinically manifest tumours
- Immune system provides pressure, along with genomic instability causes cancer cells evolution meaning that only the immunogenic survive (immunoediting), selection for escape, increasing genetic instability/tumour heterogenity
- Anti-tumour response of the immune system changes the immunogenecity of tumours, resulting in the emergence of immune resistant variants
Describe the red pulp of the spleen
- Vascular, has parenchyma and lots of vascular sinuses (sinusoids)
- Lining endothelial cells are elongated-rod cells and are fenestrated, act as filter
- Defective RBC detected then phagocytosed by macrophages in red pulp
- Healthy RBC can squeeze through the walls of the sinuses and are transported out of the organ by the splenic vein
How does the angiogenic switch change in cancer?
- Switch - usually angiogenic activators are only turned on when phsyiologically required, then inhibitors are turned on to stop unwanted angiogenesis
- Tumour cells cause the switch to be constantly turned on - angiogenic inhibitors never expressed, BV never fully mature so are leaky
- Switch from angiogenic inhibitors to angiogenic activators = cancer
What is the role of integrins in cancer?
- Altered integrin expression is frequently detected in tumours - melanoma, breast, prostate, pancreatic, ovarian
- Support oncogenic growth factor receptor (GFR) signalling
- Cell migration and invasion
- Extravasation from blood vessels
- Colonisation of metastatic sites
- Survival of circulating tumour cells
Describe the function of the innate immune system in cancer
1st line of defence - germ-line encoded pattern recognition receptors rapidly detect infected or stressed cells, trigger potent effector mechanisms to contain tumours
What are the core clinical features of depression?
Low mood, anhedonia, fatigue
Everyday >2 weeks
Describe the process of extravasation by tumour cells
- Migration - from central blood flow to periphery (less turbulent blood flow)
- Rolling - selectins
- Slow rolling
- Arrest - integrins
- Adhesion strengthening, spreading - CAMs (cell adhesion molecules)
- Intravascular crawling
- Diapedesis - JAMs (junctional adhesion molecules)
How do targeted therapies work in the treatment of cancer?
Drugs which target a specific process in an aberrant molecular pathway - intracellularly or extracellularly (e.g. angiogenesis)
Describe the gross structure of the thymus
- 2 lobes divided into many lobules
- Outer more darkly staining region = cortex (highly cellular)
- Inner lighter staining region = medulla (less cellular)
- Outer connective tissue capsule and septa
How are tyrosine kinase inhibitors used in practice?
- In cancer cells
- Raf kinase mutations in melanoma
- MAP kinase in melanoma
- EGF receptor kinase mutations in lung cancer
- ALK kinase mutations in lung cancer
- Kit kinase mutations in GI stromal tumours
- Ret kinase mutations in medullary thyroid cancers
- JAK kinase mutations in myelodysplastic syndrome
- Her2 in breast cancer
- Bcr-Abl fusion in chronic myeloid leukaemia
- In the stroma
- VEGF receptors in renal cancer
Describe the properties of epithelial cells compared with mesenchymal cells
- Epithelial
- Cohesive interactions between cells, forming continuous cell layers
- Three membrane domains - apical, lateral and basal
- Presence of tight junctions between apical and lateral domains
- Polarised distribution of cell components
- Lack of mobility with respect to their local environment
- Mesenchymal
- Loose or no interactions between cells
- No clear apical/basolateral membranes
- No cell-cell junctions
- No apicobasal polarised distribution of organelles/cytoskeleton
- Motile cells that may have invasive properties
Describe angiogenesis in cancer
- Low oxygen, tumour cells sense hypoxic state and release hypoxic inducible factor
- HIF release triggers production of proteins for angiogenesis e.g. VEGF
- VEGF interacts with receptor on endothelial cells to express genes needed for angiogenesis
- Allows for migration (integrins), sprout formation (proliferation) and invasion (proteases)
Describe the mechanism of action of checkpoint inhibitors
- Targets immune checkpoints - key regulators of the immune system that stimulate or inhibit actions, which tumours can use to protect themselves from attacks by the immune system
- Can block inhibitory checkpoints, restoring immune function
- Increase overall survival
Define depression
Pathological low mood, associated decrease in functioning
Biochemical disorder with genetic component
What is the difference between prognostic and predictive markers?
- Prognostic markers
- Inform about outcome regardless of treatment
- May help choose which patients to treat, but not how to treat them
- Examples include CTCs in breast cancer
- Predictive markers
- Predict which patients will benefit from specific treatment
- Help choose which drug to use
- The basis of precision medicine
- Examples include EGFR mutations in lung cancer, Raf mutations in melanoma
- Some markers are prognostic and predictive e.g. oestrogen receptors in breast cancer, ER positive have >90% survival and benefit from tamoxifen
How is hormonal treatment used in prostate cancer therapy?
- Surgical castration - still first treatment for metastatic prostate cancer
- GnRH agonists - overstimulates anterior pituitary until it stops producing FSH/LH e.g. Goserelin, Triptorelin, Leuprorelin
- GnRH antagonists e.g. Degarelix
- Oestrogens
- Androgen receptor antagonists
What is the sentinel lymph node?
- The hypothetical first lymph node or group of nodes draining a cancer
- If a cancer is undiagnosed, the tumour and the sentinel lymph nodes are ideally removed, to prevent further metastases
How has treatment of chronic myeloid leukaemia changed?
- Increased life expectancy since 2003 after introduction of imatinib (30% alive after 5 years in 2003, 75% now)
- Imatinib mimics ATP, switches off overactive kinase
- Well-tolerated - switches off abnormal protein so few side effects, most have abnormal protein so respond well
Describe maturation of T cells in the thymus
- Immature lymphocytes differentiate in the cortex
- T-cell progenitors proliferate in the outer cortex
- Differentiating T cells accummulate in between epithelial reticular cells, pass into venules and efferent lymphatics along the border of the cortex and medulla
- Or they pass into the medulla, where they are further selected by thymic dendritic cells and matured before passing out of the medullary venules and efferent lymphatics
List the modes of tumour spread
- Intraepithelial
- Lymphatic spread
- Haematogenous spread
- Transcoelomic spread (across the peritoneal cavity)
List angiogenic inhibitors
- Thrombospondin
- Angiostatin - plasminogen fragment
- Endostatin - fragment of collagen XVIII
- Tumstatin - fragment of collagen IV
What is provenge and how is it used as a cancer therapy?
- Immunostimulant, dendritic cells for therapy
- Patient-specific treatment for prostate cancer
- Isolation of monocyte dendritic precursors
- Generation of dendritic cells, loading with prostate cancer antigen
- Reinfusion to generate anti-tumour response
- Licensed in 2010, increases survival over 20+ months compared with control
Describe the use of anti-depressants
- 1st line - SSRIs
- 2nd line - tricyclics
- 3rd - monoamine oxidase inhibitors
